Variable-speed transmission



1952 H. E. WILTSEY VARIABLE-SPEED TRANSMISSION 5 Sheets-Sheet 1 Filed June '28, 1950 Oct. 7, 1952 H. E. WILTSEY 2,612,785

VARIABLE-SPEED TRANSMISSION Filed June 28, 1950 3 Sheets-Sheet 2 IN V EN TOR.

Oct. 7, 1952 H. E. WILTSEY VARIABLE-SPEED TRANSMISSION 5 Sheets-Sheet 55 Filed June 28, 1950 Patented Oct. 7, 1952 VARIABLE-SPEED TRANSIVIISSION V e '"Howard'KWiltsey;Racincj'Wis, as'signor to I.

"Case Company, Racine;Wis.; a

" Wisconsin corporation of :Application June 28, 1950; SerialNo. 170,870

A The present invention relates torvariable speed s transmissions for. transforming .uniform continuroustimotionl into, intermittent. vmotion 1 at. easily Lchangeable rates, .and has"specia1-..utility as a .wagonu'nloader when attachedflto aconveyor or Qforagel blower at its source of power for automatically unloading a wagon into the conveyor or :forage blower.

.An objectflofthepresent inventionis to gen- 7 erially improvelthe operationand-constructionof devices of this. type.

I A further object .Tofl the present" invention is to provide atransmission includinga driving earn, a

. ratchet wheel,. and a "followerassembly for imparting'ithe lift "of the driving cam to the-ratchet wheehwith improved means fonldirecting the re- .cip-rocatorymotion ofthe follower assembly along a predetermined path.

Referring ,to thei drawings:

V I" Fig. 1 is afront elevation of altransmission embodying the present invention withvparts broken awayto show the'. "driving cam" andtfollowerassembly construction. 1

Fig.v 2 .is alsideeelevation. offlthe transmission shown inIFig. ll partly in sectionnon the line 2--2 j iof'Fig; '1 .to'i show. the ratchetwheel. construction.

Fig; v3 is a substantially. horizontal section taken on the line 3I3 of Fig. 1 r

Fig. 4.-is a'diagrammaticJpIan view, slightly reduced. in .size illustratingv the transmisson 'used ,as a Wagon unloader for automatically unloading a wagon intothe conveyor' of a vforage bloweror ."the like.

" 5-is aperspective.viewlslightlyenlarged, of

a. means' for establishing and maintaining the severalir ates jof motion .ofwhich the transmission iscafiable.

In theillustrative embodiment of the invention setforthin the accompanying drawingsand hereinafter described in-detail,.my improvedvariable, speed-transmissiomis .used for transforming f the constantrotary motion; of a driving shaft I0 7 to intermittent motion directed to a-driv-en shaft H. For transforming constant-rotarynmction into intermittent motion, v the transmissioncomprises, inlthe'p'resent instance, a driving camas, sembly jlZLfor.imparting oscillatory'motion to a follower assembly .I 3 which in turn drives a ratchetwheel I ll-in one mdirection byr means of rockablev levers -l 5 and-driving- ,pawls.=-l 6- and I I 'backwardmotions beingpreventedx-by i-holdinge pawls l8 and 19., It will: ice-seen intthe: drawings that the pawls are. positioned. with? respect :to the ratchet wheelll4-so=that when.:one driving pawl and 'one holding pawl are inlmesm with the -pev ripheral teethof I the ratchet wheel I4, the other ldriving pawl andholding pawl are a half tooth out of mesh with the peripheral teetho'f the ratchet wheehwhichas will be fully explained hereinafter, permits the transmission to direct a a -very="slow. rate of intermittent motion to the Jdriven' shaft '1 [independently of the speed 10f the constantly rotating'sh'aft it while still-re -taining a ratchet wheel havingteeth large enough v,to'linsure, ample'streng'th for the [purposes for which the transmission is intended.

fF'or regulating the-speed. of the intermittent motion directed'tothedriven shaft ll independ- Jently ofthespeedfof the constantly rotating shaft T10, a regulating-mea'ns'zii.is provided for selectivelyvpositioningthe 'followerassembly with respect tothe'drivingficam assembly l2 for controlling the degree of. oscillation. imparted to the "jfollower as willb fully explained hereinafter.

Thetransmission-is enclosed; in the present instance, in. an enclosure v2| including a casing 22 andaflhousing 23 which-are secured one to the other asbybolts onthelike 24. The casing 22 isiformed of sections .25 and 26, as seen in' Fig. 1,

5 secured together as1by. bolts 21 or the like, which 1construction,,.as.will be appreciated, enablesthe 1enclosed..mechanism to be easily:v assembled and disassembled; TIh'e housing 23 is. fabricated'from wangleirons andsheetfrnetal or other suitable material and main'taiii'ed'in its substantially rectangular cross sectional shape. as. by bolts 28 and sp-acers 29. a I

The driving eamfassembly l2;comprises acast- 'ing30 having a tubular shaft 3| and an eccentric cam 32 formedsubstantiallymidway between the Lends of the tubulafshaft 3!. The tubular shaft ",3! is rotatablycarried transversely in thecasing '22 in aligned bearingsQ33-33 for rotation therein; For-rotating the tubular shaft 3| for imparting os'cillatorym'otionlto the follower assembly l3 bymeans iof'.thefcami32,'on'e end of the tubular ,..shaft isprovidedwith an internal spline, or i the 1ike34,,'for, nonf'rotatably accommodating-therein the driving shaft-10;" Lock rings 35 are secured "adjacentlthe ends of-Uthe tubular shaft 3 I for preventing axialI-displacement of the casting 30 in ffflth'e' bearings 334133.

Wingt the upwardizdisplacement of the follower 5v assembly" I 31;:upon: oscilla-tionf'by' the driving cam assembly I2, spindles 39 are formed on the ends of the shaft 31 laterally of the arms of the yoke 38 for freely rotatably carrying guide rollers 40 which in turn are accommodated in aligned guideways or recesses 4I formed in the casing 22 so as to roll therein. It will be noticed in the drawings that the guideways 4| are formed so as to position the shaft 31' so that its axis is in a plane substantially parallel to the tubular shaft 3! and normal to a pivot 42 to be later described, when the peripheral surface of the cam 32 is in intimate contact with the peripheral surface of the roller 36, for effecting thereby substantially uniform acceleration and deceleration of the follower assembly I3 by the cam 32 and for preventing the wedging of the guide rollers 43 in the guideways 4|. It should also be noted that the guideways M are of sufficient size to permit the rollers 40 to roll freely up and down therein, Fig. l, lateral displacement of the guide rollers 46 and consequently of the roller 36 within the guideways cannot be effected suiliciently to move the rollers 36 out of position with respect to the periphery of the cam 32. Axial movement of the roller 36 on the shaft 31 is limited to the distance between the arms of the yoke 38 which in turn are confined between th guide-rollers 40. The upper end of the follower assembly I3 is provided with a forked head 43 which is pivotally secured between the adjacent ends of the rockable levers I on above mentioned pivot 42. It will be apparent that when the lift of the cam 32 is imparted to the follower assembly I3, that the follower assembly will have a peculiar rocking motion due to the fact that the head 43 is secured with the rockable levers I5 so as to rock circumferentially about the axis of the ratchet wheel I4. To provide suitable bearing surface on the cam 32 at all times, the roll is substantially barrel-shaped so as to rock sufliciently on the cam 32 to compensate for this rocking motion of the follower assembly. As previously suggested, the rockable levers I5 pivotally carry on opposite sides of the periphery of the ratchet wheel I4 the driving pawls I6 and I1 positioned for engagement with the peripheral teeth of the ratchet wheel as will be further explained. The head 43 is secured with the yoke 38 as by a shaft 44 threaded into the respective ends of the yoke and the head, the proper length for the follower assembly I3 being fixed as by lock nuts 45.

The ratchet wheel I4 includes a hub portion 46 which surrounds and is keyed or otherwise suitably fixed to a driven shaft 41 which in turn is rotatably carried transversely in the housing 23 by aligned bearings 4848. As seen in the drawings, the housing 23 in the present instance is secured with thecasing 22 so that a plane through the axis of the shaft 41 substantially normal to the horizontal intersects a plane through the axis of the tubular shaft 3| substantially normal to the horizontal substantially at right angles, so that the follower assembly is positioned at one side of the periphery of the ratchet wheel I4 for rocking the rockable levers I5 for driving the ratchet wheel as will appear. The shaft 41 protrudes laterally from the bearings 48 and is preferably splined or otherwise suitably formed on the ends thereof for attachment of the driven shaft II on either end of the shaft 41.

The rockable levers I5 are pivotally carried by the shaft 41 on opposite sides of the ratchet wheel I4 and confined as far as axial displacement on the shaft 41 is concerned between the hub portion 46 and the bearings 48. As previously suggested the levers I5 carry between their adjacent ends on opposite sides of the periphery of the ratchet wheel I4 the driving pawls I3 and I! which are positioned for engagement with the peripheral teeth thereof. More specifically the pawl I6 is rotatably carried on apin 49, see Fig. 3, which is carried by the levers I5 and spaced radially from shaft 41. Axial movement of the pawl IE on the pin 49 is prevented by means of spacers 50. The pivot 42 carried by the opposite ends of levers I5 rotatably carries the pawl I1 and the forked head 43 of the follower assembly I3 therebetween, the pawl I! being positioned between the arms of the forked head 43 for preventing axial movement thereof. For urging the driving pawls I6 and I! into engagement with the peripheral teeth of the ratchet wheel I4, tension springs 5I are provided interposed between the levers I5 and the pawls I6 and Il.

It will be seen that as the driving cam assembly rotates, the eccentric cam 32 will impart a uniform acceleration to the follower assembly I3 which motion is imparted to the levers is so as to move the ratchet wheel in one direction, as indicated by the arrow, Fig. l, as by the driving pawls I 3 and I1. A tension spring 52 is positioned between the levers I5 and the housing 23 for resiliently maintaining the follower assembly in contact with the periphery of the cam 32. Reverse motion of the ratchet wheel I4 is prevented by the holding pawls I8 and I9 which are rotatably positioned within the housing 23 so as to engage with the peripheral teeth of the ratchetwheel I4. Tension springs 53 are provided for resiliently urging the holding pawls into engagement with the teeth of the ratchet wheel. As has been previously suggested and as seen in Fig. 1, when the driving pawl I1 and the holding pawl I8 are engaged with the peripheral teeth of the ratchet Wheel, the driving pawl I 6 and the holding pawl I9 are substantially a half tooth out of engagement with the teeth of the ratchet wheel, which arrangement permits variations in the speed of rotation of the driven shaft corresponding to a rotation of the ratchet wheel equal to one-half the pitch of the teeth thereof per revolution of the driving cam 32 which accordingly permits a very fine speed variation to be obtained with a ratchet wheel of comparatively course pitch. It should be recognized that this type of multiple pawl arrangement is conveniently employed in transmissions wherein the relative motion between the driving pawls and the ratchet wheel for engaging the pawls with successive teeth is less than the pitch of the teeth. While the motion of the ratchet wheel that is necessary for engaging the pawls with successive teeth thereon may be reduced by making the pitch of the ratchet smaller for imparting a slow intermittent motion to the driven shaft II independently of the speed of the constantly rotating shaft I0, this weakens the teeth and is not always desirable in transmissions of this type. It should be understood, however, that whilethis multiple pawl arrangement disclosed in the drawings is preferable, I do not intend to limit my invention thereto, it being recognized that any suitable pawl arrangement is adaptable to be employed with the disclosed transmission.

To procure variations in speed of the driven shaft II while still permitting the use of a constant speed motor or prime mover for imparting the rotary motion to the driving shaft I0, I have provided the regulating means 20 as previously suggested, by which through simple manual adjustments a number of different operating Speeds can readily be obtained. Toaccomplish this, I provide in the present'instance; control rod/54 slidably passed through holes formed in alateral' extension 55 of the head and the housing'23 so as to position the control rod substantially parallel to the follower assembly 13. A compression spring 56 is provided on rod 54: between the lateral extension 55 of the head-'43 andiade justment nuts 5! and which is engaged: by extension "55 upon downward movement when less than a full stroke .of'zassemblyi 43 is! desired. i Spring: 56 is for absorbing the 'shockz ofstheofollower assembly 13'- during deceleration/30f the follower whenthe 'fllll lifblof-ith cam132lis not -utilized. r

5s is: satiny I seemed to aurockable armfifi which: is pivotally secured with the housingJZSE-onazpivoftc59 carried- -in a bracket-'60 :foriraising or loweringitheicon- 'trol rod 54. Suitable nie'ans? areisprovidedxfor I maintaining the rockable arm' EB-When thezcorrect position for thecontrol-rod 5s lhas'rbeen 1 found, one of such means being illustrated .and

described in connection-with :Figs. eaandj. :By

raising orlowering the control rod- 54; the return or deceleration of 1 the follower assembly 3.- is controlled and consequently its contact through the roller 3% with the' caml'fiz.is'rlikewisecon;

trolled; It shouldbeapparent that-the control rod can be positioned so that the .full::-'-l-ift1 of the cam 32 is imparted to the follower assembly 1301 it canbe positioned-so that only a; portion of the lift 'of.the' cam"32 .wil1 :beiimpartedto the follower assembly I3 'as'Zby limiting the::re-

turn of the followerassembly.so thatQonly a portion of the cam M/Jcomes =in--c ontact"with the roller '36. Wheriiit:is-desirableato:stopthe motion of. the driven shaft H: independently; of therotation of the driving":'shaft' -lm therroller I 36 can be held sufiiciently away from Zthe-center "of the cam 32' sothat the-peripheryof" theccam will not come in contact? with .the rollenwhen 'the follower assembly will notmrockthe; levers 15. In the specific embodiment-illustrated; in the drawings, it-ispossible-to obtainl-variations in speed of the. driven shaft H independently of thespeed of the driving' shaftlfl from a rotation of the ratchet wheelzequal toone haIf tooth of "the ratchet "wheerperflcomplete :revolution of the cam 32 to a rotation 'of "the'ratchet'wheel equal to three and one half teeth of theratchet wheel at one-half toothintervals i'per" revolution of the cam 32'but it-should be understood that different speed variationssare possible: depending' upon the use to which the-transmission is to be put, the size'of the ratchet wheel that is employed, and the pitch of the peripheral teeth thereof. i

While I have shown an eccentric cam for use with this transmission it should bevrecognized that the use 'of this type of-cam is'only preferable and any type of cami which: will: impart a suitableoscillatory-motion to the follower assembly can be. employed.

- Fig. 4 illustratesthe useof myvariable-{speed be increased or decreased -independgnt1y of the I speed of the conveying means n The transmission in: the present-instance is e.=*secured =td a conveying means iorsffeed hopper 6 l:-.- as; :by .langle shaped 'brackets 52 and so -=a's to position the transmission so that the driving wshaft Illgi'sin, alignment with a driving-shaft mof the-{feed hopper for universal connection therewith. The conveying means or feed hopper 6.1 .is of conventional construction and preferably of'the type employed for conveying-materialinto a blowing mechanism 65for discharge into a silo or other place of'storage but itshould-be understood that the feed hopper can' beofany atype 'for transferring material from onerplace to another. The feed hoppercomprises'in the present instance end and side memberstfi and a floor member '61 which is designed to "receive the material-discharged therein bythewagon.

The driving shaft 64 in the present instance is extended tranvsersely through the feed hopper and isprovided with spaced sprockets-68 -p0sitioned within thefeed hopper 6|." Sprockets-69 :aligned with above'mentioned sprocketsGBare qfiprovided on a shaft '10 which in'turn'extends transversely through the hopper adjacent the other end thereof. Spaced chains H. are-carried by the sprockets 68 and 69 around the floor member ,61 and have secured transversely-there- 1 -,-between blades 12 for pushing or urging. the {material emptied into the feed hopper toward its discharge end. The driving shaft Misprovided'laterally of the feed hopper with a sprocket 13 which is in mesh with a driving chain 14 which in turn is driven by any suitable-driving 'mechanism not shown in the drawings.

The wagon or trailer used in conjunction .with

' I thefeed hopper Simay be of any suitabletype and is shown including spaced parallel sides :15,

u an inclined forward wall 16', and a removable rear wall 11. Supporting brackets project downwardlyfrom the sides 15 to support arear axle upon which arerotatably supported; rear .wheels "[8. Suitable brackets are likewiseprovided forwardly for supporting a front axle 79 for rotat- .the cam is'revolved and consequently ,"so: that ably carrying front wheels 80. The wheels 80 are shown pivotally attached-at 8| to the front gaxle "l9 and arms-'82 may be connected-by a suitable tie-rod-83, which may be pivotally-set cured at to the rear end of a tongueor draw- This tongue or drawbar is pivotally secured tothe front axle as at 86 so that pivotal movement of the drawbar will act topivotally movethefront wheels 80.

' Apair of sprocket shafts 8? -and38 extend transversely of the wagon-and support sprockets 89 and 96 respectively in spaced relation and in alignment with each other. Spacedparallel chains 9| are carried around a floor member 92 by the sprockets 89 and 9|]. Paddles-83 are secured transversely between the chains '9: for

pushing or; urging the material in the wagon 7 toward the rear end thereof for discharge into the feed hopper Bias will be clearly explained.

The sprocketshaft 8'! is provided with a laterally projecting end M, which is universally connected to a telescopic universal shaft -95 which transmission as awagon unloaderlfor unloading --cut material in a wagon into a conveyingmeans, wherein the speed ofunloading the.wagon-may in turn is universally connected to thedriven shaft 1 l of the transmission for imparting inter- -mittent motion to the chains 9! for unloading the wagon.

For maintaining or regulating the rate of intermittent motion directed to shaft 81 of the wagon by the transmission a conventional chain 96is provided secured to an arm 9'! fixed to and extending transversely of arm 58 and held in a bracket-98 provided with a slot 99 (see Fig. 5).

While the slot 99 is of sufficient size to permit oneglinktof' the chain'SB to be easily-slid edgewise therein, transverse movement of said chain in said slot is prevented since the slot is not of sufficient size to permit the juncture of two links to pass therethrough. It should be further noted that a movement of the rockable arms 9! and 58 corresponding to a movement of the chain equal to the length of one link of the chain will raise or lower the control rod 54, depending upon the direction of movement of the chain, so as to increase or decrease the speed of intermittent motion transmitted by the transmission by one-half tooth of the ratchet wheel [4 per revolution of the driving cam [2, as by regulating the amount of lift imparted to the follower assembly by the driving cam assembly, as will be clear from the foregoing description.

In operation the wagon is filled with grain, cut forage, or other suitable material and backed up to the feed hopper so that the rear endof the wagon will feed into the hopper. The universal shaft S5 is then connected between the driven shaft ii of the transmission and the end 94 of the sprocket shaft 8 the shaft 85- being telescopic to permit this to be easily done regardless of the positioning of the wagon with respect to the feed hopper. The driving sprocket T3 is then connected to the suitable driving means by the chain 14 for driving the shaft 64 and consequently moving the chains H downwardly as seen sprockets 68 and 65;. The shaft 64 will consequently transmit a uniform rotative motion to the driving shaft I!) for transforming in the transmission, into intermittent motion, as has been clearly explained, for unloading the wagon. Since the pile of grain, forage, or other material is usually near the rear of the wagon when the unloading operation is first started, only a slow rate of intermittent motion is needed to cause a sliding movement of the grain, or forage into the feed hopper. However, as the load in the wagon diminishes, the chains 9| will have to be moved a greater distance so that the paddles 93 can maintain an even flow of material into the feed hopper. This is accomplished, as should be clear, by regulating the speed of the intermittent motion transmitted to the wagon by means of the regulating chain 96 as previously described.

Having now clearly described my invention, what I claim and desire to be protected by Letters Patent is:

1. In a variable speed actuating mechanism for a wagon unloader having a driven shaft, the combination of a driving shaft spaced from and transverse to said driven shaft, a cam on said driving shaft and rotatable therewith in a plane substantially normal to the axis of said driving shaft, a housing enclosing said driving shaft and cam, a cam follower in said housing and engaged with said cam and including a yoke member, a ratchet wheel on said driven shaft, a rocking lever swingably associated with said ratchet wheel and aligned in a plane parallel to the longitudinal plane of said driving shaft, a rigid member extending from the yoke and pivotally secured to the lever for rocking the lever in response to toand-fro movement of the yoke and whereby said yoke is given a rocking movement in the direction of the axis of said driving shaft, a pawl on said lever engaged with the ratchet wheel in position to rotate it upon rocking of said lever in one direction, said housing providing spaced guiding channels extending away from said driving shaft in a direcin Fig. 4 around the tion substantially normal to said driving shaft and in the direction of the plane thereof, guide engaging elements on said follower engaged with said channels for guiding said follower in substantially parallel movement as related to the plane of said driving shaft, a cam following roller journaled in said yoke and engaged with said cam, and said roller and said cam having complementary surfaces for effective actuating contact therebetween during such rocking of said yoke.

2. In a variable speed actuating mechanism for a wagon unloader having a driven shaft, the combination of a driving shaft spaced from and transverse to said driven shaft, a cam on said driving shaft and rotatable therewith in a plane substantially normal to the axis of said driving" shaft, a housing enlosing said driving shaft and cam. a cam follower in said housing and engaged with said cam and including a yoke member, a ratchet wheel on said driven shaft, a rocking lever associated with said ratchet wheel. and swingable about the axis of said driven shaft, a rigid member extending from the yoke and pivotally connected to the lever for rocking the lever in response to to-and-fro movement of the yoke and whereby said yoke is given a rocking movement in the direction of the axis of said driving shaft upon said rigid member being moved by said lever about the axis of said driven shaft, a pawl on said lever engaged with the ratchet wheel in position to rotate it upon rocking of said lever in one direction, said housing providing spaced guiding channels extending away from said driving shaft in a direction substantially normal to said driving shaft and in the direction of the plane thereof, guide engaging elements on said follower engaged with said channels for guiding said follower in substantially parallel movement as related to the plane of said driving shaft, a cam following roller journaled in said yoke and engaged with said cam, and said roller being barrel-shaped for effective actuating contact with said cam during such rocking of said yoke.

3. In a variable speed actuating mechanism for a wagon unloader having a driven shaft, the combination of a driving shaft spaced from and transverse to said driven shaft, a cam on said driving shaft and rotatable therewith in a plane substantially normal to the axis of said driving shaft, a housing enclosing said driving shaft and cam, a cam follower in said housing and engaged with said cam and including a yoke member, a ratchet wheel on said driven shaft, a rocking lever associated with said ratchet wheel and swingable about the axis of said driven shaft, a rigid member extending from the yoke and pivotally connected to the lever for rocking the lever in response to to-and-fro movement of the yoke and whereby said yoke is given a rocking movement in the direction of the axis of said driving shaft upon said rigid member being moved by said lever about the axis of said driven shaft, a pawl on said lever engaged with the ratchet wheel in position to rotate it upon rocking of said lever in one direction, said housing-providing substantially parallel guiding channels spaced from each other axially of and extending away from said driving shaft in planes substantially normal to the axis of said driving shaft and in the direction of the plane thereof, freely rotatable guiding elements engaged between said channels and said follower for guiding said follower in substantially parallel movement as related to the plane of said driving shaft, a cam following roller journaled 9 in said yoke and engaged with said cam, and said roller being substantially barrel-shaped for effective actuating contact with said cam during such rocking of said yoke.

4. In a variable speed actuating mechanism for transforming rotary motion into intermittent motion, a driven shaft, a driving shaft spaced from said driven shaft and transverse with respect thereto, a cam on said driving shaft and rotatable therewith in a plane substantially normal to the axis of said driving shaft, a housing enclosing said driving shaft and said cam, a ratchet wheel on said driven shaft, a lever adjacent said ratchet wheel and swingable about the axis of said driven shaft and carrying a pawl for engagement with said ratchet wheel, a cam follower between said lever and said cam for .rocking said lever upon rotation of said driving shaft, said cam follower including a yoke, and a rigid member extending from said yoke and pivotally connected to said lever, said yoke carrying a substantially barrel-shaped roller positioned to be in effective actuating contact with said cam wherein upon to-and-fro movement of said yoke said follower is given a peculiar rock- 25 ing movement in the direction of the axis of said driving shaft iipon said rigid member being moved by said lever about the axis of said driven shaft, said housing having formed therein guiding channels spaced on opposite sides of said cam in planes substantially normal to the axis of said driving shaft and in the direction of the plane thereof, and guides extending from said follower and engaged in the respective guiding channels for permitting said follower to move in said peculiar motion in the direction of the axis of said driving shaft while guiding said follower in substantially parallel movement as related to the direction of the plane thereof.

HOWARD E. WILTSEY.

REFERENCES CITED The following references are of record inthe file of this patent:

UNITED STATES PATENTS Number Name Date 631,495 Adams Aug. 22, 1899 646,287 Hundhausen Mar. 27, 1900 883,268 Wilson Mar. 31, 1908 1,833,831 Drawz Nov. 24, 1931 

